Yes, mass is an intrinsic property of matter. However a freely falling object will experience no weight.
momentum is equal to the mass of an object x velocity of an object
Gravity's action on a falling body is dependent on the masses of both bodies and the difference between their centers. Typically the falling body's mass is negligible, being on orders of magnitude smaller than the larger body, and will not affect the acceleration to any measurable degree. So, typically the answer would be: No.
Nearly all falling object are affected by the resistance of air. However some objects have a mass greater than the air can affect. There is also the case where air resistance equals that of gravity and the object will not fall any faster.
It has no direct affect on the speed of an object. It does affect the energy content of the speeding object.
The mass of an object will not affect the time it takes for it to reach the ground from a fixed height. Backspace
The terminal velocity of a falling object depends upon its aerodynamics (which is to say, its shape) rather than its size and mass.
It reduces the acceleration of the falling object due to friction.
Yes, mass is an intrinsic property of matter. However a freely falling object will experience no weight.
Before you test it, you could state the hypothesis in two different ways You could say: "The mass of a falling object has no effect on the time it takes to fall some distance." Or you could say: "The time a falling object takes to fall some distance depends on its mass." You could use the same tests to investigate EITHER hypothesis. --------------------------- The mass of a falling object has no effect on the time it takes to fall some distance assuming zero air resistance.
momentum is equal to the mass of an object x velocity of an object
Gravity's action on a falling body is dependent on the masses of both bodies and the difference between their centers. Typically the falling body's mass is negligible, being on orders of magnitude smaller than the larger body, and will not affect the acceleration to any measurable degree. So, typically the answer would be: No.
The shape of the object and the density of the gas that the object is falling through.
Nearly all falling object are affected by the resistance of air. However some objects have a mass greater than the air can affect. There is also the case where air resistance equals that of gravity and the object will not fall any faster.
When an object is falling in a gravity field, its mass does not affect its acceleration. If under the influence of friction then it takes more energy to accelerate it the larger mass it has, here on Earth. The larger the mass the more potential it has to do work if it is above the surface of the earth than a smaller mass. But in turn, to get it to the higher point more work must be done for a larger mass than a smaller mass.
It has no direct affect on the speed of an object. It does affect the energy content of the speeding object.
It has no direct affect on the speed of an object. It does affect the energy content of the speeding object.